Flaxseed and its contribution to body growth and brain of Wistar rats during childhood and adolescence.

OBJECTIVES: To evaluate the effect of flaxseed upon body growth and brain of rats. METHODS: Experimental phase lasted 52 days, using 42 Wistar rats which were divided into four groups: Control (CG, n = 12), 10% casein diet; Flaxseed (GL, n = 12), 10% flaxseed diet plus casein; Modified Control (GCM, n = 12), 10% casein diet with changes in lipid and fiber comparable to GL; Non-protein (GA, n = 6), diet without protein. Considering food intake, protein intake and weight variation, the Protein Efficiency Ratio (PER) was calculated. Net Protein Retention (NPR) and the Food Efficiency Ratio (CEA) were also determined relative to brain weight at 30 days of life (M30) and at 52 days (M52). Analysis of Variance (ANOVA), Test of Sheffe and post-test of Bonferroni were used, p < 0.05. RESULTS: GL had lower food intake, protein and weight variation than GC, but had higher values than GCM. Concerning PER, GL was lower than GC and similar to the GCM, as well as CEA. As for NPR, GL had lower values than the CG and GCM. At M30, GL was superior to GC in relation to brain weight. Likewise, the same was observed at M52. CONCLUSION: Flaxseed promoted adequate growth and better brain development in animals, which might be explained by increased incorporation of omega-3 into these tissues.

Flaxseed and its contribution to body growth and brain of Wistar rats during childhood and adolescence / Linaza y su contribución al crecimiento del cuerpo y el cerebro de ratas wistar durante la infancia y la adolescencia

Objectives: To evaluate the effect of flaxseed upon body growth and brain of rats. Methods: Experimental phase lasted 52 days, using 42 Wistar rats which were divided into four groups: Control (CG, n = 12), 10% casein diet; Flaxseed (GL, n = 12), 10% flaxseed diet plus casein; Modified Control (GCM, n = 12), 10% casein diet with changes in lipid and fiber comparable to GL; Non-protein (GA, n = 6), diet without protein. Considering food intake, protein intake and weight variation, the Protein Efficiency Ratio (PER) was calculated. Net Protein Retention (NPR) and the Food Efficiency Ratio (CEA) were also determined relative to brain weight at 30 days of life (M30) and at 52 days (M52). Analysis of Variance (ANOVA), Test of Sheffe and post-test of Bonferroni were used, p < 0.05. Results: GL had lower food intake, protein and weight variation than GC, but had higher values than GCM. Concerning PER, GL was lower than GC and similar to the GCM, as well as CEA. As for NPR, GL had lower values than the CG and GCM. At M30, GL was superior to GC in relation to brain weight. Likewise, the same was observed at M52. Conclusion: Flaxseed promoted adequate growth and better brain development in animals, which might be explained by increased incorporation of omega-3 into these tissues (AU)

Objetivos: Evaluar el efecto de la linaza en el crecimiento corporal y del cerebro de ratones. Métodos: El estudio experimental duró 52 días, utilizando 42 ratones Wistar, que fueron divididos en cuatro grupos: Control (GC, n = 12), dieta con 10% de caseína; Linaza (GL, n = 12), 10% de la dieta de linaza adicionada de caseína; Control Modificado (GCM n = 12), 10% de caseína con los cambios en los lípidos y fibra comparable a GL, Sin proteína (GA, n = 6), dieta sin proteínas. Fueron controlados la ingesta de alimentos, la ingesta de proteínas y la variación de peso, fueron calculados el Índice de Eficiencia Proteica (PER), la retención proteica neta (NPR) y el Índice de Eficiencia de Alimentación (CEA). Se determinó también el peso cerebral relativo a los 30 días de vida (M30) y 52 días (M52). Fue utilizado ANOVA, prueba de Sheffé y coeficiente de Bonferroni, con p< 0,05. Resultados: GL tuvo menor consumo de alimentos, proteínas y variación del peso sobre GC, pero tuvo valores más altos que GCM. Con relación a PER, GL fue inferior a GC y similar a GCM, así como en el CEA. GL tuvo valores menores valores de NPR que GC y GCM. En M30, GL fue superior a GC en relación al peso relativo del cerebro. Lo mismo se observó en M52. Conclusiones: La linaza promueve un crecimiento adecuado y un mejor desarrollo cerebral en los animales, lo que podría explicarse por una mayor incorporación de ácidos grasos omega-3 en estos tejidos (AU)